DE2800981A1 - DEVICE FOR CONTROLLING THE DRYING DEGREE OF LAUNDRY IN A DRYING DEVICE - Google Patents

Description

A 19 5.1.1978

Bt / gf

AKO-Werke GmbH & Co. Pfannerstraße 75/79 7988 Wangen / Allgäu

Device for controlling the degree of dryness of laundry in a drying device

The invention relates to a device according to the preamble of claim 1.

In a known device of this type (DE-AS 1 610 295), a glow lamp is connected to a capacitor, which each time at a certain voltage on the capacitor ignites and a control pulse is sent to the control electrode of a thyristor gives away. In the circuit of the thyristor, a timer motor is connected, which after a predeterminable running time Circuit of an electrical heating element for heating the drying air to be blown through a drum switches off. at This device is used by the timer motor for the mechanical integration of those with a higher degree of drying of the laundry generated ignition pulses of the glow lamp. Apart from the required electromechanical integrator with the danger in the event of malfunctions due to wear, the set drying

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The degree of efficiency achieved only very imprecisely at a desired absolute humidity of the laundry in the range below 40%. Also must the capacitor will be discharged again and again, in order to increase the ratio of charging resistance to washing resistance each time again to be able to determine, whereby the ignition pulse sequence is determined.

The object of the invention is, in a device with the features of the preamble of claim 1 To take measures through which a selected degree of dryness of the laundry is achieved with increased reliability.

This problem is solved by the characterizing features of claim 1.

This configuration means that the capacitor can only be charged when the additional electrodes are washed bridged, whereby the charging current is independent of the degree of dryness of the laundry. Against this is the discharge of the capacitor depending on the degree of dryness or the electrical conductivity of the laundry. But after the contact time of the laundry on the electrodes changes with the degree of dryness, but certain ratios in the case of accidental touches does not occur at least during shorter periods of time, is now approximately for a period of time in which a discharge occurs, the corresponding period of time enables the capacitor to be charged. Preferably the sensing electrodes are for the discharge arranged directly spatially adjacent to the additional electrodes, so that the time segments

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cover at least largely for discharging and charging.
As a result of the calculation of the charging periods
According to the discharge time periods, the random contact of the electrodes is set in a fixed ratio within narrow limits for each degree of dryness and for each type of laundry, thus achieving a largely defined charging and discharging process on the capacitor. It
the voltage divider ratio between the charging resistor and the laundry resistor is therefore basically only measured at the point in time when the two electrodes are bridged. The capacitor itself only effects averaging of the control signal, which is necessary because of the possible time shift between the contact of the laundry with the two pairs of electrodes and the possible different conductance of the laundry items. If a switching element is applied to the circuit of the sensing electrodes, with which the actual duration (e.g. current flow) of the bridging of these electrodes is determined and the switch in the circuit of the charging resistor is closed for this duration, then the additional electrodes can be omitted.

The invention is explained in more detail below using the circuit of an exemplary embodiment.

On the inner jacket surface 1 of an intermittently rotatable drum 2 of an electric clothes dryer an insulating plate 3 is arranged. On the insulating plate 3 are preferably in the manner of a printed Circuit electrodes are provided, one of which is in the middle

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ordered elongated electrode 4 connected to ground potential is. On both sides of the electrode 4, two further electrodes 5 and 6 are arranged, of which opposite one another are connected in pairs.

The electrodes 4 and 6 form sensing electrodes, the electrodes 6 being connected to a terminal of an electrical capacitor 7 are connected, the second terminal of which is grounded. The capacitor 7 and the electrodes 6 are at the same time to a switching amplifier 8, namely to a non-inverting input of an operational amplifier provided therein 9 connected ', at its inverting input Reference potential is applied. The operational amplifier 9 controls a transistor 10, its collector line Relay 11 contains and is connected via a feedback resistor 12 to the inverting input. The relay 11 has a relay contact 12, which is open in the idle state and is in the control circuit of a heating element 14. That Heating element 14 is used to heat the drying air to be blown through drum 2.

The electrodes 5 together with the electrode 4 form additional electrodes, wherein the electrodes 5 are connected to an inverting input of an operational amplifier 15, which is an electronic Switch 16 is assigned. A feed resistor 17 is also connected to the inverting input, the forms a voltage divider with the resistance of a damp item of laundry falling on the additional electrodes. The inverting one Input of the operational amplifier 15 is via a

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Another voltage divider formed from resistors 18, 19 is at a reference potential and is connected to the output of the operational amplifier via a feedback resistor 20 tied together. A charging resistor is connected to this output via the series circuit comprising rectifier 21 and a selector switch 22 23 is turned on, which can be connected to the capacitor 7 via a program-controlled changeover switch 24. The charging resistor 23 consists of several individual resistors 25, 26, which with the help of the selector switch 22 the desired degree of dryness can be switched on by hand accordingly. The changeover switch 24 closes the charging resistor 23 in the time in which the laundry is moved by rotating the drum 2, while in the idle times of the drum 2 via the changeover switch 24 a constant voltage is present ^ the resistor 27 is connected to the capacitor 7. The rectifier 21 prevents the capacitor 7 from discharging via the charging resistor 23.

In conjunction with the capacitor 7 and the variable charging resistor 23, a time constant of approximately results 3 to 10 seconds, while the time constant with resistor 27 is about 75 seconds.

The operation of the device is such that first of all the falling on the electrodes 4, 5, 6 during the drying process Laundry has such a low resistance that the voltage divider ratio of the resistance values of the charging resistor 23 and laundry resistance at the sensing electrodes 4, even with sensing and additional electrodes that are constantly bridged with laundry 4, 5, 6 does not result in a voltage greater than

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is the control voltage for switching the switching amplifier 8. As the drying increases, the laundry becomes free falling fall only sporadically on the electrodes 4, 5, 6. As long as the additional electrodes 4, 5 are not bridged, the capacitor 7 is not charged because the switch 16 does not switch the charging resistor 23 through to voltage. However, in the meantime, a random bridging of the sensing electrodes 4, 6 can take place, so that a Discharge of the capacitor 7 takes place depending on the laundry resistance. On the other hand, flying laundry can also be a short-term bridging of the additional electrodes alone and thus a charge of the capacitor 7, which, however is not sufficient to immediately charge the capacitor 7 to the switching voltage of the switching amplifier 8, but since the bridging times the sensing electrodes 4, 6 and the additional electrodes 4, 5 are the same on average over a certain period of time, the capacitor 7 can only be charged to the voltage resulting from the voltage divider ratio of the charging resistor 23 and the laundry resistance actually achieved between the sensing electrodes 4, 6 results. Only when the laundry resistance and thus the degree of dryness of the laundry unite has reached a certain value, the capacitor 7 can only be charged to the switching voltage. By changing of the charging resistor 23, which can also be continuously variable, thus becomes the switching voltage for different laundry resistance values reached after the voltage ratio must remain the same with the same supply voltage.

When the switching voltage is reached, the control voltage is applied to the non-inverting input of the operational amplifier 9

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more positive than at the inverting input, so that the npn transistor is blocked. As a result, the relay 11 excited up to that point is de-energized and its relay contact 13 is interrupted directly or indirectly the circuit of the heating element, with the entire drying process being terminated at the same time can. An additional integration element is therefore not required.

With spatially adjacent arrangement of the sensing and additional electrodes 4, 5, 6 a largely uniform contact with the laundry is achieved, so that the geometric Arrangement in the drum practically has no effect on the drying result. The training of the switch as an electronic switch enables the direct connection of simple sensing electrodes without intermediate contact elements. This also applies to degrees of dryness down to 10% absolute humidity of the laundry.

When the absolute humidity of the laundry is below 10%, the charging resistor 23 is switched off by hand, so that via the switchover contact 24 controlled by the program switching mechanism of the tumble dryer only in the idle times of the Drum 2 a charging current can flow through the resistor 27 to the capacitor. This charging current is so low that if there is no Laundry or, in the case of laundry with a very low conductivity, the switching voltage on the capacitor is only reached after about 10 minutes will. In this case, the laundry entered will only discharge the capacitor that is to be charged at intervals 7 until the laundry is practically dry.

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Claims (17)

2600981 A 19 5.1.1978 Bt / gf patent claims 1. Device for controlling the degree of dryness of laundry in a heated drying device, preferably in a drum dryer, with sensing electrodes connected in parallel to an electrical capacitor (energy storage), to which the laundry to be dried is placed at irregular intervals during the drying process, with an electrical charging resistor connected in series to the capacitor for charging the capacitor and with a voltage-dependent switching device connected to the capacitor, which at a predetermined level of the voltage on Capacitor switches off the dryer heating, characterized in that in series with the charging resistor (23) an electrical switch (16) is connected that, in addition to the sensing electrodes (4, 6) in the drying device (2), additional electrodes (4, 5) are arranged and that via the additional electrodes (4, 5) on contact with the laundry to be dried the switch (16) switches through the circuit of the charging resistor (23). 2. Device according to claim 1, characterized in that the sensing electrodes (4, 6) and the additional electrodes (4, 5) are arranged spatially adjacent. 909828/0494 ORIGINAL INSPECTED A 19 5.1.1978 Bt / gf 3. Device according to claim 1 or 2, characterized in that the sensing electrodes (4, 6) and the additional electrodes (4, 5) one electrode (4) is common. 4. Device according to claim 3, characterized in that on both sides in addition to the elongated common Electrode (4) one electrode (5, 6) each of the sensing and additional electrodes is arranged. 5. Device according to claim 1 or one of the following, characterized in that the switch (16) is an electronic one Switch is and that an electrode (5) of the additional electrodes (4, 5) is connected to an input of the electronic switch is. 6. Device according to claim 5, characterized in that the electronic switch (16) is an operational amplifier (9) whose inverting input is connected to the connection point of one electrode (5) of the additional electrodes (4, 5) and a resistor (17) connected in series with it, the non-inverting input of which is connected to the junction of two series connected resistors (18, 19), that from the connection point a further resistor (20) is connected to the output of the operational amplifier (9) and that the charging resistor (23) is connected to the output. 7. Device according to claim 6, characterized in that a rectifier (21) in series with the charging resistor (23) is connected, which is polarized opposite to a discharge of the capacitor (7). 909828/0494 A 19 5.1.1978 Bt / gf 8. Device according to claim 1 or one of the following, characterized in that the charging resistor (23) in several Individual charging resistors (25, 26) are divided, which can optionally be inserted into the charging circuit of the capacitor by means of a manual switch (22) (7) can be switched on. 9. Device according to claim 1 or one of the following, characterized in that in series with the charging resistor (23) there is a program switching contact (24) which is open when the device (2) moving the laundry is at a standstill. 10. Device according to claim 9, characterized in that the program switching contact (24) is designed as a changeover contact is, to the second contact piece, a fixed resistor (27) is connected, the resistance value of which is greater than that of the charging resistor (23). 11. Device according to claim 1 or one of the following, characterized in that the time constant of the charging resistor (23) with the capacitor (7) is between 3 and 10 seconds. 12. Device according to claim 9 or 10, characterized in that that the time constant of the fixed resistor (27) with the capacitor (7) is about 75 seconds. 13. Device according to claim 1 or one of the following, characterized in that the switch (16) via the additional electrodes (4, 5) up to an absolute humidity of the laundry of about 10%. 909828/0494 A 19 5.1.1978 Bt / gf 14. Device according to claim 1 or one of the following, characterized in that the connected to the switch (16) Charging resistor (23) from the circuit of the capacitor (7) can optionally be switched off manually. 15. Device according to claim 1, 5 or one of the following, characterized in that instead of the additional electrodes (5, 4) a switching device which emits a signal when current flows through the sensing electrodes (6, 4) is provided. 16. Device according to claim 15, characterized in that there is a resistor in series with the sensing electrodes (4, 6), at which a signal to be fed to the input of the switch (16) is tapped. 17. Device according to claim 15, characterized in that the resistance in the lead connected to ground of the electrode (4) is switched. 909828/0494